Mechanism for making paper receptacles.



T; ALLATT.

MEGHANISM FOR MAKING PAPER. REGEPTAGLES.

APPLICATION FILED MAR. 20. 1909.

982,780, Patented m1311911.

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MEGHANISM FOR MAKING PAPER RBCEPTAOLES.

APPLICATION FILED 111111.20. 1909.

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MEGHANISM FOR MAKING PAPER RECBITAOLES.

APPLICATION FILED MAB. 2.0, 1909. I

Patented Jan. 31, 1911. 19 SHEETS-SHEET 3. A

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T. ALLATT. MBGHANISM FOR MAKING PAPER REGBPTAGLBS.

APPLIoATIoN FILED MAR. zo. 1909.

Patented Jan. 31, 1911.

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MECHANISM FOR MAKING PAPER REGEPTAGLES.

APPLIoATIoN FILE 1111.11.20. 1909.

982,780. Patented .13.11.31, 1911.

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T. ALLATT.

MBGHANISM F011 MAKING PAPER REGEPTAGLBS.

APPLIOATION FILED MAB. 20, 1909. I 982,780. Patent-.ea Jan.,3.1, 1911.

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APPLICATION FILED MAB.. 20. 1909.

982,780. o Patented @11.31, 1911.

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T. ALLATT.

MEGHANISM POR MAKING PAPER REGEPTACLES.

APPLICATION FILED MAB.. 20. 1909. 982,780. Patented, Jan. 31, 1911.

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MBGHANISM Fon MAKING PAPER BBGBPTAGLES.

v APPLICATION FILED MAR. 20. 1909. 982,780.

Patented Jan31, 1911.

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APPLIOATION FILED 111111 zo 1909 Patented .11111.31 1911.

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APPLICATION FILED MAB.. 20. 1909. 982,780. Patented 1111.31, 1911.

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T. ALLATT.

MEGHANISM FOR MAKING PAPER REOBPTAGLES.

Patented Jan. 31, 1911.

APPLICATION FILED MAB.. 20. 1909.

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MEGHANISM FOR MAKING PAPER. BEGBPTAGLES.

Patented Jan. 31', 1911.

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THOINIAS ALLATT, OF TORONTO, ONTARIO, CANADA, ASSIGNOR OF ONE-FOURTH TOEDWARD S. .2'. 'ILCALLISTER AND ONE-FOURTH TO ROBERT J. UPTON, OFPORTLAND,

OREGON.

MECHNISM FOR MAKING PAPE-R RECEPTACLES.

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Specification of Letters Patent.

Application filed March 20, 1909.

Patented Jan. 31, 1911.

Serial No. 484,749.

To all whom it' may concern:

Be it known that I, TrrorrAs ALLATT, a subject of the King of GreatBritain, residing at the city of Toronto, in the county of York andProvince of ntario, Canada, have invented certain new and usefullimprovcments in Mechanism for Making Paper Receptacles, of which thefollowing is a specification, reference being had therein to theaccon'ipanying drawing.

rThis invention relates to boX or pail making machines, and hasspecially in view mutually cooperating mechanism by means of which ablank is acted upon bv improved folding and setting up mechanism so thatthe blank folded and set up and provided with a wire bail or handle, thesaid wire bail or handle being forced through the folded portions of thebox and stapled therein, so that the same in addition to serving as ahandle, also serves in an eiiicient manner to retain the box or pail inproper shape.

ln the practical application of the improved box or pail making machineit will, of course, be readily understood that. the same is susceptibleto a wide range of essential elements and structural arrangements ofdetails, but a preferred and perfectly practical embodiment thereof isshown in the accompanying drawings, wherein- Figure 1 is a perspectiveview of the folding and hailing mechanism. Fig. Q is a front elevationthereof, the feed table being omitted. Fig. is top plan view. Fig. 4 aside elevation. Fig. 5 is a vertical scctional view taken on the line12-12, Fig. Q. Fig. is a similar view taken on the line 1?-13 Fig. Fig.7 is a vertical sectional view taken on thc line 14 14, Fig. 3. Fig. 8 asectional view taken on the line 15-15 4. Fig. 9 is a detail elevationof the former blocks. Fig. 10 is detail perspective view of a pivotedlever or arm which is carried by each former block. Fig. ll is a sideview of a pivotbolt therefor. Figs. 12 and 13 detail elevations ofopposite sides of the rotating nechanism for the formers. Fig. 14 is aperspective view of a pivotally mounted pawl carried by the formerblocks rotating mechanism. Fig. 15 is a detail view of -a cam for therotating mechanismshown in Figs. 12 and 13. 1G is a detail view of crankarm operated by the cam shown in Fig. 15. Fig. 17 is a plan. view ofblank receiving plate and folding wings carried thereby. Fig. 18 is avertical sectional view taken on the line Z5-25, Fig. 17. Fig. 19 is adetail view of a stop for supporting or holding the wings. Fig. Q() is ahorizontal sectional view taken on line 27--27 Fig. 18. Fig. 21 is adetail side elevation of the slide collar shown in Fig. 18. Fig. 22 is adetail perspective view of one of the arms which carry the blankpressing plates. Fig. .23 is a sectional view thereof taken on the line80-30, Fig. 22. Fig. 24 is a plan view of a cam for operating the platesand arms shown in Fig. 22. Figs. Q5, 26 and 2?, are, respectively, a topplan and side elevations of opposite sides, of guide rollers and theirsupporting arm which feed the wire to the machine. Fig. 28 is a detailview of a detachable wire guide. Fig. 29 is a perspective view of a pawlfor preventing withdrawal of the wire. Fig. 30 is a plan view of the topof the machine, showing the devices for cutting. and shaping the wire.Fig. 31 is a detail view of a crank and eccentric for operating' thecutting and shaping devices. Fig. 32 is a detail view of the slottedbars forming a part of the wire shaping mechanism. Figs. 33 and 34 aredetail perspective views of arms for bending the ends of the wireinwardly. Fig. 35 is a detail view of a cam and operating rods for thearms shown in Figs. 33 and 34. Fig. 3G is a side elevation of the camshown in Fig. 35. Fig. 37 is a detail perspective view of an operatingcrank arm for the arms shown in Figs. 33 and 84. Fig. 88 is aperspective view of the wire carriers. Fig. 39 is a sectional view takenon line 4G-46,Fig. 30. Fig. 4() is a detail view of wire guides whichcooperates with the wire cutter. Fig. 41 is a detail view of a crank foroperating the wire carriers. Fig. 42 is a detail view of a hammer forstraightcning the wire. Fig. 43 is a detail view of a hammer device forattaching the wire bails to the blanks. Fig. 44 is a detail. view of abearing plate and guide for the hammer devices shown in Fig. 43. Fig. 45is a detail view of a spring connection of one of the bending arms shownin Figs. 33-34. Fig. 4G is a detail side elevation showing a form ofadjustable connection between the varions operating rods and theircranks. Fig. 47 is a perspective view of a clenching block

